|Publication number||US5837289 A|
|Application number||US 08/685,172|
|Publication date||Nov 17, 1998|
|Filing date||Jul 23, 1996|
|Priority date||Jul 23, 1996|
|Also published as||WO2000025822A1|
|Publication number||08685172, 685172, US 5837289 A, US 5837289A, US-A-5837289, US5837289 A, US5837289A|
|Inventors||John C. Grasela, Joseph E. Grasela, Robert M. Jubenville, Joseph J. McCloskey|
|Original Assignee||Grasela; John C., Grasela; Joseph E., Jubenville; Robert M., Mccloskey; Joseph J.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (18), Non-Patent Citations (6), Referenced by (117), Classifications (15), Legal Events (9)|
|External Links: USPTO, USPTO Assignment, Espacenet|
1. Field of the Invention
The invention herein relates to the transdermal delivery of medications to a patient. More particularly it relates to compositions which allow medication molecules to be solubilized and delivered transdermally and to methods for formation of such compositions and for their therapeutic use.
(For convenience herein the terms "drug" and "medication" may be used interchangeably. We wish to emphasize, however, that this invention is applicable to the delivery of any type of compound or molecular species which is intended to be administered to a patient transdermally for a therapeutic or physiological purpose. Whether the material happens to meet a particular specific definition of a "drug" or "medication" or other applicable term is not critical for the purposes of this invention, and the invention should not be limited by the particular term applied to the material being administered.)
2. Description of the Prior Art
In the past the delivery of medications transdermally to a patient has been limited to administration by transcutaneous injection or by transdermal migration from a patch placed on the outer surface of the patient's skin. The deficiencies of administration by injection are obvious. With only a few exceptions injections must be administered by trained and qualified medical personnel. The injection itself causes a break in the skin which can lead to infection, despite precautions; an injection needle may itself be contaminated causing infection to the patient; and, course, it is a simple fact that injections are uncomfortable to almost all patients. Further, an injection is normally not "location specific." Rather the injection is made at a location on the body remote from the affected area, and the injected medication must be transported through the body to that location. This results in losses in transport, so that to administer an effective amount of medication to the affected area, and excess of medication must be injected.
In view of these deficiencies of injection administration, significant effort has been spent in the last few years in seeking alternative methods of transdermal administration of medications. It has been necessary to meet two requirements. First, the method must provide for extended containment of the drug and any carrier while in place on the patient's skin (in effect analogous to containment of the medication and carrier in the reservoir vial of the injection syringe), in a form that does not lend itself either to contamination of the medication and carrier or to loss of the medication and carrier. Second, the systems employed must provide for a regulated and predictable rate of transfer of the medication (with or without the carrier) from the containment device into and through at least some layers of skin to where the medication will be dispersed throughout the affected area of the body.
The only workable prior art embodiment of such a device has been what is commonly known as a "patch." A patch is generally a flat hollow device with a permeable membrane on one side and also some form of adhesive to maintain the patch in place on the patient's skin, with the membrane in contact with the skin so that the medication can permeate out of the patch reservoir and into and through the skin. The outer side the patch is formed of an impermeable layer of material, and the membrane side and the outer side are joined around the perimeter of the patch, forming a reservoir for the medication and carrier between the two layers.
Numerous kinds of medications have been administered through the use of a patch, notably scopolamine for preventing motion sickness, nicotine derivatives intended to discourage an addicted smoker from continuing the smoking habit and estrogen hormones.
Patches have their own set of disadvantages. A principal disadvantage is that, not withstanding the presence of a penetration enhancer, the delivery of the medication is necessarily limited by the rate of passage of the medication through the patch membrane to the skin. Since the medication is not in contact with the skin while it is enclosed in the patch, whatever length of time is required for the medication to permeate through the skin itself to become effective is necessarily lengthened by the time needed for the medication first to exit from the patch through the membrane. In many cases membrane permeation rate is the significant rate limiting step of speed of effectiveness of a particular medication, and can render patch administration essentially ineffective because the medication cannot reach the patient's system rapidly enough to be efficacious. In addition, the adhesive which is intended to secure the patch to the patient's skin can fail, so that the patch disengages from the skin before completion of the transfer of the medication, resulting in loss of that quantity of medication which remains within the patch's reservoir.
Various methods have been used to increase skin permeation of medications, including penetration enhancers, pro drugs, superfluous vehicles, iontophoresis, phonophoresis and thermophoresis. For the purposes of this invention, only the penetration enhancers are relevant. Ideal enhancers have no irritancy and toxicity to the skin, and the whole body, together with having high enhancing effects. Enhancers themselves should be phisiochemically stable and not have pharmacologic effects, and preferably should not have smell, color, or taste. A typical example of an enhancer is disclosed in U.S. Pat. No. 4,783,450 (to Fawzi et al.) in which lecithin is used for penetration enhancement.
The stratum corneum provides the principal barrier to the percutaneous penetration of typically applied substances. It is the most superficial cutaneous layer and is a horny layer that consists of flat, scalelike "squames" made up of the fibrous protein keratin. The squames are continually being replaced from below by epidermal cells that die in the process of manufacturing keratin. It is unlikely that the emulsified fat on the skin surface greatly affects permeability. However, vehicles can control, to a great extent, the rate of penetration of drugs that are applied to the skin. The intercellular lipids may be important for the permeability barrier in skin.
It is known that some combinations of enhancers and vehicles act synergistically, such as the combination of ethanol as a vehicle for the enhancer laurocapram. However, many combinations are not synergistic; for instance, n-decylmethylsulfoxide lowers the zeta potential of the skin, and thus enhancement due to conduction flow (iontophoresis) is minimized, in the past, synergism of combinations could not be predicted.
Further, one must differentiate between penetration enhancer which act to improve the ability of the medication to pass through a patch membrane to reach the skin, and those which act to enhance the separation of the medication from its carrier matrix or to enhance the diffusion of the medication into and through the skin.
However, notwithstanding the various deficiencies mentioned, administration by injection or by patch remain only by viable transdermal administration techniques known to the prior art.
We have now developed a system that provides for a convenient, efficacious and simple system for transdermal administration of medications in which the medication is present in a composition for direct application to the skin, commonly in the form of a cream or similar material. The transdermal administration of the drug is therefore not hindered by having to penetrate a patch membrane, since the cream and its medication content are directly in contact with the skin and the medication needs only to separate from the cream in order to be available for transdermal migration. In addition, since the composition is in the form of a cream or other viscous moldable and spreadable material, the drug may be effectively administered by application of the cream to many bodily areas where a patch either will not fit or cannot be shaped to conform to the skin contours.
(As with the use of the terms "medication" and "drug," our invention is not to be limited by the term used to describe the physical properties of the composition herein. We will for convenience use the term "cream," but other terms such as "gel," "lotion," "paste" and the like also could be applicable. As will be seen from the description below, the physical nature of the composition containing the medication and to be applied to the patient's skin will be defined by functional parameters, rather than being limited by an arbitrary descriptive term.)
A key element in the success of the present invention is our discovery that the use of at least two separate penetration enhancers of defined function results in a synergism which provides rapid but controllable separation of the medication from the cream and its penetration into and within or through the skin. At least one of the penetration enhancers acts to facilitate the separation of drug from the carrier within the cream and at least a second penetration enhancer alters the structure of the outer layers of skin, particularly the stratum corneum, such that migration of the drug through the stratum corneum is enhanced and expedited. The medication is thus taken up by the patient's system and is efficacious much more rapidly than would be the case for administration of the medication by means of the prior art patch system. Further, although permeation of the skin does not provide for as rapid administration by the medication as would result from direct injection, the use of the present invention avoids the problems associated with injection administration.
Therefore, in one principal embodiment, the invention is of a composition for diffusional transdermal delivery of medication to a patient, which comprises a medication capable of being administered transdermally; a carrier for the medication; a first penetration enhancer which improves diffusion of the medication into and within the patient's skin; and a second penetration enhancer which improves diffusion of the medication out of the composition for transdermal migration; the composition having a viscosity in a range such that it may be applied topically and conform to and adhere to the patient's skin for a period of time sufficient for a significant portion of the medication to be delivered transdermally to the patient.
In another principal embodiment, the invention is of a method for the preparation of a therapeutic composition to be transdermally administered which comprises solubilizing a medication capable of being administered transdermally; forming an organogel comprising a first penetration enhancer which improves diffusion of the medication into and within the patient's skin, and a carrier for the solubilized medication; forming a polymeric component comprising a second penetration enhancer which improves diffusion of the medication out of the composition for transdermal migration; and blending the solubilized medication, organogel and polymeric component to form the composition having a viscosity in a range such that it may be applied topically and conform to and adhere to the patient's skin for a period of time sufficient for a significant portion of the medication to be delivered transdermally to the patient.
In yet another principal embodiment, the invention is of a method for the transdermal administration of a medication which comprises solubilizing a medication capable of being administered transdermally; forming an organogel comprising a first penetration enhancer which improves diffusion of the medication into and within the patient's skin, and a carrier for the solubilized medication; forming a polymeric component comprising a second penetration enhancer which improves diffusion of the medication out of the composition for transdermal migration; blending the solubilized medication, organogel and polymeric component to form the composition having a viscosity in a range such that it may be applied topically and conform to and adhere to the patient's skin for a period of time sufficient for a significant portion of the medication to be delivered transdermally to the patient; and applying the composition to the skin of a patient for the period of time and allowing the medication to diffuse out of the composition and through the skin, such that the medication is taken up by the body of the patient and acts therapeutically on the patient.
In preferred embodiments the first penetration enhancer is a lecithin organogel formed with isopropyl palmitate or isopropyl myristate, and the second penetration enhancer is a polyoxymer, preferably a polyoxyalkylene derivative of propylene glycol. A wide variety of medications can be delivered by this invention. Further, while the invention herein is described in terms of the minimum number of synergistically acting penetration enhancers (i.e., two), it will be understood that additional penetration enhancers can also be present. Thus there may be more than one enhancer which operates with a specific mechanism, or there may be additional enhancers which provide yet other modes of operation, or both.
The methods and compositions described herein provide a unique and highly effective technique for administering medication directly to an affected area of the body with the minimum amount of medication and with the avoidance of unwanted side effects. Unlike administration by injection or orally, the transdermal administration herein is site specific; the cream is applied to the skin directly at the affected area of the body. There are therefore no losses of medication during transport from a remote application site. Similarly, the long delays in having an effective quantity of the medication reach the affected area of the body, which are inherent in injection and oral administration, are entirely eliminated in the present invention.
The present method also avoids unwanted side effects. For instance, in oral administration of a medication, the medication itself can adversely affect the gastrointestinal tract as it is swallowed and dissolved for assimilation into the circulatory system. Those skilled in the art are well familiar with the common caution required for many oral medications that they must be administered only in conjunction with a meal, or, conversely, that they cannot be administered in the presence of specific types of food products, such as dairy products. These cautions are necessary since the orally administered medication's efficacy will be adversely affected by certain foods, or the person's gastrointestinal tract will be irritated by the medication if the latter is not diluted by the presence of food in the gastrointestinal tract. Such considerations are, of course, entirely absent in the present invention, where the same medications can be easily and conveniently administered transdermally without incurring such side effects.
Futher, the transdermal administration avoids the "first pass effect," which often results when a medication is administered orally and thus has to pass through various organs, including the liver, before reaching the affected area of the body. These organs can absorb or chemically alter significant quantities of the passing medication, thus requiring that large excess quantities of the medication by administered initially to insure that an effective quantity of the medication will ultimately reach the affected area of the body. Since in this method the medication commonly passes through the skin directly to the affected site, there is no problem of loss in intermediate organs, and therefore excessive quantities of medication do not need to be delivered to counter such losses. (As an example, ketoprofen is commonly administered orally in quantities of about 50-75 mg per dose for the desired efficacy. In the present invention, however, an equally effective dose of ketoprofen can be delivered by topical transdermal administration of only 3 mg.)
Finally, since the present invention is site specific, the depth of delivery of the medication can be readily controlled, as contrasted to injection delivery.
The single FIGURE of the drawing is a flow chart illustrating schematically formulation of a preferred embodiment of a composition of this invention.
The unique compositions of the present invention require a specific sequence of steps in their formation if a therapeutically effective and pharmaceutically compatible composition is to be obtained. This is best understood by reference to the FIGURE of the drawing.
The basic composition of this invention is a mixture of an organogel, a solubilized medication or drug and a carrier combined with a drug release agent. Penetration enhancement is provided by the organogel and by the release agent.
In the exemplary process as illustrated in the FIGURE, an organogel is formed, in this example from lecithin and isopropyl palmitate. These two materials are thoroughly blended and mixed until a substantially uniform gel structure forms. The organogel, which is the base for the cream composition, should be formed at the time that the composition is to be formulated. The drug or medication is solubilized with a solvent, such as water, alcohol or other appropriate solvent, again by mixing in a known manner. When it is desired to start formation of the actual composition, the solubilized drug is mixed thoroughly into the organogel matrix, again by conventional mixing techniques. The technique used will of course be such that the organogel's structure is not broken down. Finally, a carrier, such as water or alcohol, and a drug release agent, such as a polyoxymer, are blended. The carrier/release agent mixture can be made up in large lots and stored under refrigerator until needed, at which time an appropriate quantity can be taken for and the remainder retained in refrigerated storage. The carrier/release agent mixture is then mixed with the drug/organogel mixture to produce the final "cream" composition. Details will be provided below.
Considering first the organogel, the blend of the two components will be in the range of from about 25% to 75% of the lecithin component, the remainder being the fatty acid ester component. (Unless stated otherwise, all percentages, parts and concentrations are by weight.) The "lecithin component" may be lecithin, any comparable fatty acid phospholipid emulsifying agent, such as fatty acids and their esters, cholesterol, tri-glycerides, gelatin, acacia, soybean oil, rapeseed oil, cottonseed oil, waxes or egg yolk, or any other material which acts in the same manner as lecithin.
The other component is an organic solvent/emollient, particularly including fatty acid esters, of which the esters of the saturated alkyl acids are preferred. The preferred solvent/emollient in the present invention is isopropyl palmitate or isopropyl myristate. However, there are numerous compounds available which exist in liquid form at ambient temperatures and will function in a manner equivalent to the fatty acid esters. These are all quite well known and described. They include, but are not limited to, the following:
______________________________________ Ethanol Propylene glycol Water Sodium oleate Leucinic acid Oleic acid Capric acid Sodium caprate Lauric acid Sodium laurate Neodecanoic acid Dodecylamine Cetyl lactate Myristyl lactate Lauryl lactate Methyl laurate Phenyl ethanol Hexamthhylene lauramide Urea and derivatives Dodecyl n,n-dimethylamino acetate Hydroxyethyl lactamide Phyophatidylcholine Sefsol-318 (a medium chain glyceride) Isopropyl myristate Isopropyl palmitate Surfactants (including): polyoxyethylene (10) lauryl ether diethyleneglycol lauryl ether Laurocapram (azone) (1;1-dodecylazacycloheptan-2- one) Acetonitrile 1-decanol 2-pyrrolidone N-methylpyrrolidone N-ethyl-1-pyrrolidone 1-methyl-2-pyrrolidone 1-lauryl-2-pyrrolidone Sucrose monooleate Dimethylsulfoxide Decylmethylsulfoxide Acetone Polyethylene glycol (100-400 mw) Dimethylacetamide Dimethylformamide Dimethylisosorbide Sodium bicarbonate Various C7 to C16 alkanes Mentane Menthone Menthol Terpinene D-terpinene Dipentene N-nonalol Limonene Ethoxy diglycol______________________________________
This combination of the phospholipid emulsifying agent and the fatty acid or fatty acid ester or equivalent thereof forms an organogel. In the example referred to in the FIGURE, the organogel will be a lecithin organogel, which is both isotropic and thermally reversible. At temperatures greater than about 40° C. the organogel will become a liquid and its viscosity will be greatly reduced. Water can be also be added to control the viscosity of the organogel. The organogel serves as one of the penetration enhancers in the cream, and acts on the stratum corneum of the skin to promote interaction between the phospholipids of the cream and the phospholipids of the skin. This causes a disruption in the normal regular arrangement of layers in lipids in the stratum corneum so that openings are created which then allow the drug to pass more easily through the skin. The organogel will be compatible with a wide variety of lipophilic, hydrophilic and amphoteric drugs and medications.
Using the above-described lecithin organogel and its components as an example, the properties needed for inclusion of a components in this invention will be evident. The various compounds, polymers, etc. comprising the organogel, the solubilized drug and the carrier/polyoxymer components must all be compatible with each other, so that chemical reactions do not occur which would adversely affect the efficacy or safety of the cream composition; they must be mutually soluble so that they can be mixed and blended to a uniform consistency; they must be such that the resulting cream composition has a viscosity under ambient conditions which is low enough to allow it to be applied easily and smoothly to the skin, but not so low that the cream acts as at least in part like a liquid and cannot be retained on the skin where it is applied; they must not be toxic, irritating or otherwise harmful to the patient; they must be sufficiently stable that the overall composition will have a reasonable shelf life and service life; and, as a practical matter, they must be available at reasonable cost. Thus, it will generally be found that the characteristics of a drug or medication which make it difficult to administer transdermally through the present system include its having low stability, particularly at ambient temperatures; not being soluble in the composition; having high molecular weight resulting in difficulty penetrating the stratum corneum, even with the enhanced openings; and/or causing an adverse reaction with the one or more skin layers.
The drug or medication which is to be administered usually must be solubilized in a solvent to enable it be blended properly with the organogel and the carrier/release agent. Typical solvents for such use include water, the low molecular weight alcohols and other low molecular weight organic solvents. Solvents such as water, methanol, ethanol and the like are preferred. The purpose of solubilizing is to enable the medication to become properly dispersed in the final cream. It is possible that a few drugs or medications might themselves be sufficiently soluble in the cream that a solvent, and therefore a separate solubilizing step, would not be needed. For the purpose of this description, therefore, the term "solubilized" drug or medication shall be considered to include those drugs or medications which can be dispersed or dissolved into the cream with or without the presence of a separate solvent. Usually the amount each of medication and solvent which will be present, based on the entire composition, will be in the range of up to<1%-20%, with the preferred concentration of each being about 10%. The concentrations of both need not be identical.
A wide variety of drugs may be transported by this method and through this type of composition. Typical of the various drugs which can be successfully incorporated into the present composition and transdermally transported include the following classes of substances:
______________________________________ Antidiabetic Agents Sulfonylureas Acetohexamide Chlorpropamide Tolazamide Tolbutamide Glipizide Glyburide Glimepiride Metformin Acarbose Insulin Glucose Elevating Agents Diazoxide Glucose Thyroid Hormones Levothyroxine Liothyronine Thyroid USP Thyroglobulin Liotrix Thyroid Drugs Iodine Propylthiouracil Methimazole Parathyroid Drugs Calcitonin Etidronate Pamidronate Alendronate Gallium Nitrate Vitamins Vitamin A Vitamin D Vitamin E Vitamin B1 Vitamin B2 Vitamin B3 Vitamin B6 Vitamin B12 Vitamin C Multivitamin Preparations Vitamin Combinations Antihyperlipidemic Agents Fluvastatin Lovastatin Pravastatin Simvastatin Probucol Niacin Dexothyroxine Clofibrate Gemfibrozil Cardiac Drugs Cardiac Glycosides Digitoxin Digoxin Antianginal Agents Nitroglycerin Isosorbide Dinitrate Isosorbide Mononitrate Antiarrhythmic Agents Moricizine Quinidine Procainamide Disopyramide Lidocaine Tocainide Mexiletine Flecanide Encainide Amiodarone Respiratory Drugs Bronchodilators Albuterol Metaproterenol Terbutaline isoproterenol Ephedrine Theophylline Dyphylline Nasal Decongestants Phenylpropanolamine Pseudoephedrine Phenylephrine Ephedrine Naphazoline Oxymetazoline Tetrahydrozoline Xylometazoline Propylhexedrine Gastrointestinals Sucralafate Metoclopramide Cisapride Laxatives Mesalamine Olsalazine Antidiarrheals Famotidine Nizatidine Cimetadine Rantadine Omeprazol Cifapride Miscellaneous Finasteride Lamsoprazole Papaverine Prostaglandins Amphetamines Dextroamphetamine Anorexiants Phentermine Benzphetamine Phendimetrazine Diethylpropion Mazindol Fenfluramine Dexfenfluramine Antirheumatic Agents Gold Compounds Penicillamine Azathioprine Methotrexate Agents for Gout Probenecid Sulfinpyrazone Allopurinol Colchicine Agents for Migraine Sumatriptan Methysergide Ergotamine Derivatives Sedatives and Hypnotics Zolpidem Paraldehyde Chloral Hydrate Acetylcarbromal Glutethimide Ethchlorvynol Ethimate Temazepam Estazolam Flurazepam Quazepam Triazolam Phenobarbital Mephobarbital Amobarbital Butabarbital Secobarbital Pentobarbital Antianxiety Agents Meprobamate Alprazolam Chlordiazepoxide Clonazepam Clorazepate Diazepam Halazepam Lorazepam Oxazepam Prazepam Buspirone Hydroxyzine Doxepin Chlormezanone Anticonvulsants Phenytoin Mephenytoin Ethotoin Ethosuximide Methsuximide Phensuximide Paramethadione Trimethadione Clonazepam Clorazepate Valproic Acid Lamotrigine Primidone Gabapentin Phenacemide Carbamazepine Phenobarbitol Antidepressants Amitryptyline Clornipramine Doxepin Imipramine Trimipramine Amoxapine Desipramine Nortriptyline Protriptyline Venlafaxine Maprotiline Trazodone Bupropion Fluoxetine Paroxetine Sertraline Fluvoxamine Tranylcypromine Phenelzine Nefazodone Antipsychotic Agents Chlorpromazine Promazine Triflupromazine Thioridazine Mesoridazine Acetophenazine Perphenazine Fluphenazine Trifluoperazine Chlorprothixene Thiothixene Haloperidol Molindone Loxapine Clozapine Riperidone Pimozide Prochlorperazine Other Psychotherapeutic Agents Lithium Methylphenidate Tacrine Pemoline Antimicrobials Antibacterials Penicillins Cephalosporins Carbapenems Monobactams Chloramphenicoi Fluoroquinolones Tetracyclines Macrolides Spectinomycin Vancomycin Lincosamides Aminoglycosides Colistin Polymixin B Bacitracin Novobiocin Metronidazoie Antifungals Flucytosine Nystatin Miconazole Ketoconazole Amphotericin B Griseofulvin Fluconazole Itraconazole Sulfonamides Sulfadiazine Sulfacytine Sulfamethoxazole Suflamethiazole Antimalarials Quinine Sulfate Mefloquine Quinacrine Doxycycline 4-Aminoquinolone Compounds 8-Aminoquinolone Compounds Folic Acid Antagonists Antituberculous Drugs Isoniazid Rifampin Rifabutin Ethambutol HCl Pyrazinamide Aminosalicylate Sodium Ethionamide Cycloserine Streptomycin Sulfate Capreomycin Amebicides Paromomycin Iodoquinol Metronidazole Emetine Chloroquine Antivirals Famciclovir Stavudine Zidovudine Ribavarin Amantadine Foscarnet Didanosine Acyclovir Ganciclovir Zalcitabine Rimantadine Miscellaneous Anti-infectives Trimethoprim Trimethoprim- Sulfamethoxazole Erythromycin- Sulfisoxazole Furazolidone Pentamidine Eflornithine Atovaquone Trimetrexate Glucuronate Leprostatics Dapsone Clofazime Antihelmintics Mebendazole Diethylcarbamazine Citrate Pyrantel Thiabendazole Piperazine Quinacrine Niclosamide Oxamniquine Praziquantel Antihistamines Diphenhydramine Chlorpheniramine Pyrilamine Doxepin Carbinoxamine Clemastine Tripelennamine Brompheniramine Dexchlorpheniranune Triprolidine Methdilazine Promethazine Trimeprazine Hydroxyzine HCl Azatadine Cyproheptadine Phenindamine Astemizole Loratadine Terfenadine Cetirizine Antimetabolites 5-Fluorouracil 6-Mercaptopurine Mycophenolic Acid Methotrexate Cytarabine Floxuridine Thioguanine Anticholinergics Atropine Scopolamine Homatropine Tropicamide Pirenzepine Isopropamide Propantheline Methscopolamine Methantheline Trihexyphenidyl Benztropine Biperiden Steroidal Antiinflammatory Agents Cortisone Hydrocortisone Hydrocortisone Acetate Prednisone Prednisolone Triamcinolone Methylprednisolone Dexamethasone Betamethasone Clobetasol Diflorasone Halobetasol Amicinonide Desoximetasone Fluocinolone Halcinonide Clocortolone Flurandrenolide Fluticasone Mometasone Aclometasone Desonide Fludrocortisone Local Anesthetics Dibucaine Lidocaine Benzocaine Butamben Picrate Tetracaine Dyclonine Pramoxine Prilocaine Antiplatelet Drugs Dipyridamole Ticlopidine Warfarin Coumarin Non-steroidal Antiinflammatory Agents Fenoprofen Ibuprofen Flurbiprofen Ketoprofen Naproxen Oxaprozin Diclofenac Etodalac Indomethacin Ketorolac Nabumetone Sulindac Tolmentin Meclofenamate Flufenamic Acid Mefenamic Acid Meclofenamic Acid Piroxicam Salicylates Diflunisal Indomethacin Phenylbutazone Oxyphenbutazone Sulfinpyrazone Allopurinol Penicillamine Colchicine Probenicid Sunscreen Agents Oxybenzone Dioxybenzone p-Aminobenzoic Acid Ethyl Dihydroxy Propyl PABA Padimate 0 Glyceryl PABA Cinoxate Ethylhexyl p-methoxycinnamate Octocrylene Octyl Methoxycinnamate Ethylhexyl salicylate Homosalate Octyl Salicylate Menthyl Anthranilate Digalloyl Trioleate Avobenzone Muscle Relaxants Carisoprodol Chlorphenesin Chlorzoxazone Cyclobenzaprine Metaxalone Methocarbamol Orphenadrine Diazepam Baclofen Antihypertensives Beta-Blockers Propranolol Acebutolol Betaxolol Bisoprolol Esmolol Metoprolol Carteolol Nadolol Penbutolol Pindolol Sotalol Timolol Labetalol Ace Inhibitors Benazepril Captopril Enalapril Fosinopril Lisinopril Moexipril Quinapril Ramipril Calcium Channel Blockers Diltiazem Verapamil Nifedipine Felodipine Nicardipine Nimodipine Nisoldipine Isradipine Bepridil Amlodipine Nisoldipine Alpha Blockers Methyldopa Clonidine Phentolamine Guanabenz Phenoxybenzamine Guanfacine Yohimbine Reserpine Guanethidine Guandrel Doxazosin Prazosin Terazosin Vasodilators Hydralazine Minoxidil Nitroglycerin Isosorbide Dinitrate Isosorbide Mononitrate Papaverine Diuretics Thiazides Loop Diuretics Spironolactone Triamterene Acetazolamide Methazolamide Dichlorphenamide Antiemetics Chlorpromazine Triflupromazine Perphenazine Prochlorperazine Promethazine Thiethylperazine Metoclopramide Cyclizine Meclizine Buclizine Dimenhydrinate Trimethobenzamide Scopolamine Diphenidol Benzquinamide Hydroxyzine Analgesics Codeine Hydrocodone Hydromorphone Morphine Oxymorphone Oxycodone Meperidine Methadone Propoxyphene Tramadol Acetaminophen Pentazocine Fentanyl Salicylates Sex Hormones Estogens Estriol Estradiol Estrone Testosterone Methyltestosterone Progesterone Medroxyprogesterone Hydroxyprogesterone Norethindrone Megesterol Pituitary Hormones DDAVP Methylergonovine Uterine Hormones Carboprost Dinoprostone Adrenal Steriod Inhibitors Aminoglutethimide______________________________________
In one preferred embodiment, the drug is ketoprofen.
Finally, the carrier and drug release agent form a polymeric composition which provides the separate penetration enhancement of facilitating the rapid release of the medication from the cream upon topical application to the patient. The purpose of this combination of materials is to provide for penetration enhancement of a different type than that of the organogel, i.e., by effecting rapid release of the drug from the cream and transport by the carrier out of the cream and into the skin through the enhanced openings in the stratum corneum.
The drug release agent may be any of a variety of polyoxymers, i.e., polyoxyalkylene derivatives of propylene glycol. Preferred are those which contain mixtures of polyoxyethylene and polyoxypropylene polymeric derivatives of propylene glycol or methyl oxirane polymers. By acting essentially as an emulsifier, stabilizer and dispersing agent, the polyoxymer facilitates the separation of the drug or medication from the other components of the cream and transfers it to the carrier, which will normally be water or a low molecular weight alcohol or organic solvent. Useful polyoxymers are available under the trademark "Pluronic" from Wyandotte Chemical Company.
The concentration of the carrier provided with the drug release agent as a mixture in the cream will determine the particular diffusion coefficient of the drug. With higher concentrations of the carrier, the diffusion coefficient will be lower and the drug will be absorbed more slowly and produce more local effects. Conversely, lowering the concentration of the carrier will speed the absorption of the drug and enhance the ability of the drug to be absorbed systemically. The normal concentration of the drug release agent in the mixture with the cream will be approximately 20% to 30%, with the balance being the carrier, during the formation of the carrier/drug release agent mixture.
The overall concentrations of the various components in the composition will generally be in the ranges of:
______________________________________Medication <1%-20%Solvent for medication <1%-20%Organogel 20%-40%Carrier/release agent 40%-70%______________________________________
It will of course be understood that these ranges represent the typical ranges for the specific example upon which the FIGURE is based, i.e., an example with a lecithin organogel, ketoprofen as the drug, and a "Pluronic NF-127" polyoxymer as the drug release agent. In general the ranges for other compositions of this invention in which other suitable organogels, drugs, carriers and release agents are used will be similar, and those skilled in the art will have no difficulty formulating suitable compositions from the description herein.
Other factors will need to be considered in preparing specific formulations. If the carrier concentration in the cream lies above the useful range, it becomes relatively stiff and difficult to apply, or, conversely, if the concentration falls below the suitable level, the cream will have a tendency to separate. Further, the pH of the cream must be adjusted to match the pH of the solubilized medication component to maximize the amount of non-ionized drug present in the cream. All suitable medications have acid/base characteristics that can be altered by adjustment of the pH of the composition.
The greater proportion of non-ionized drug present, the greater the drug's solubility and the greater the ability for larger quantities of the drug to be transported transdermally. The control of the pH can also be used to is determine whether the drug is likely to become absorbed systemically or to be absorbed locally, since the speed of transdermal transport will be dependent on the pH.
The physical properties of the cream will also be important. As noted the viscosity must be such that it can be applied topically and conform to and adhere to the patient's skin for a period of time sufficient for a significant portion of the medication to be delivered transdermally to the patient. It must also be capable of being removed from the patient's skin with ordinary physiologically acceptable cleansers or solvents, so that the cream may be removed if medically necessary, or the residue may be removed once the treatment time period for each administration has been completed. The components must be capable of being blended into a smooth, homogenous mixture with a cream- or lotion-like consistency and appearance, which either has a natural light colored appearance or can be lightly tinted if flesh-compatible tones are desired. The cream must also be capable of being covered with a light gauze or other type of dressing if desired, particularly where the cream would otherwise be in contact with the patient's clothing.
Adjustment of pH, effects of concentration and achievement of suitable physical properties in compositions containing polyoxymers have been studied and reported by Chi et al., J. Pharm. Sci., 80 (3): 280-283 (1991). Reference is made to that article, and the prior references reported therein, for guidance in determining practical limits of pH, concentration, viscosity and the like when varying the specific materials herein. The techniques and methods reported there are quite suitable for use in the present invention.
Examples of the formation of different components are given below:
A number of different lecithin organogels were formed by mixing different quantities of granular lecithin soya with isopropyl palmitate and a solvent. In three different typical compositions the respective amounts of lecithin soya and isopropyl palmitate were 25%/75%, 50%/50%, and 75%/25%. The first composition can be characterized as a thin oil, the second as a medium oil and the third as a heavy oil. In all cases the lecithin granules and isopropyl palmitate were allowed to sit for several hours, commonly overnight, by the end of which a liquid of oil or syrup consistency had formed. Alternatively one can mix the lecithin soya and the isopropyl palmitate at 50° to 60° C. until the dissolution is complete.
At any point during formation of the mixture one can also add the drug or medication. If the latter is soluble in alcohol it may be previously dissolved in the alcohol and the alcohol/drug mixture incorporated into the lecithin soya and isopropyl palmitate mixture.
A polymeric gel for use as a carrier was formed by mixing 20 grams of a commercial polyoxymer designated as "Pluronic NF-127" with 0.2 g of pure potassium sorbate and adding sufficient refrigerated purified water to bring to volume of 100 ml. Other similar compositions were formed with 30 g and 40 of the "Pluronic NF-127" respectively. A typical commercial mixer was used to mix the material. Once all of the granules of the polymeric material had been wetted the gel was refrigerated so that dissolution took place upon cooling in the refrigerator. The compositions must be maintained under refrigeration because at ambient conditions they will solidify, since (as opposed to water) polyoxymer mixtures as prepared herein solidify when heated and liquefy when cooled. Stock solutions of these materials may be made and kept in refrigerated storage for repeated use in the formulation of the compositions of the present invention.
In a typical procedure equivalent weights of the lecithin soya and the isopropyl palmitate are combined and a small quantity of sorbic acid is incorporated to control pH. The mixture is stirred until a syrup or oil consistency is obtained. Large quantities may be prepared and kept as a stock solution. The drug or medication, e.g., ketoprofen, is dissolved in water, alcohol or an equivalent solvent by using a the minimal amount of solvent necessary to obtain complete solubilizing. The dissolved drug is added to a small portion of the lecithin organogel and stirred to disperse the drug in the gel. The mixture of the carrier and the polyoxymer is then added to bring the entire formulation to the desired volume, and, if necessary, the pH of the cream is adjusted.
It will be evident that there are numerous embodiments of this invention which, while not expressly described above, are clearly within the scope and spirit of the invention. The above description is therefore intended to be exemplary only, and the scope of the invention is to be limited solely by the appended claims.
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|U.S. Classification||424/484, 424/447, 424/449, 424/448|
|International Classification||A61K47/14, A61K47/10, A61K9/06, A61K47/24|
|Cooperative Classification||A61K9/06, A61K47/10, A61K9/0014, A61K47/24, A61K47/14|
|European Classification||A61K9/00M3, A61K9/06|
|Dec 5, 2001||FPAY||Fee payment|
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